The hormonal, metabolic, and environmental regulation of plant shoot branching

Yuqi Liu , Shangyu Chen , Sikander Pal , Jingquan Yu , Yanhong Zhou , Lam-Son Phan Tran , Xiaojian Xia
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Abstract

Plants have evolved varied structures for environmental adaptation. Shoot branching, as a part of plant architecture, influences the allocation of sugars produced by photosynthesis and thus greatly impacts crop yields. The activity of axillary meristem- and apical dominance govern- the shoot branching patterns. In this review, we summarize the key factors involved in the formation of lateral branches, and the mechanisms of how these factors are interconnected. In particular, we focus on recent advances in understanding how sugar and environmental signals affect the hormonal signaling network to regulate apical dominance. Ultimately, we propose that epigenetic modifications are critical mechanisms underlying the plasticity of shoot branching, and that precise targeted gene editing is promising for shaping the ideal plant architecture.

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植物芽分枝的激素、代谢和环境调控
植物为适应环境进化出了多种多样的结构。嫩枝作为植物结构的一部分,影响着光合作用产生的糖分的分配,从而对作物产量产生重大影响。腋生分生组织的活性和顶端优势控制着嫩枝的分枝模式。在这篇综述中,我们总结了参与侧枝形成的关键因素,以及这些因素之间相互联系的机制。特别是,我们重点介绍了在了解糖和环境信号如何影响激素信号网络以调控顶端优势方面的最新进展。最终,我们提出表观遗传修饰是芽分枝可塑性的关键机制,精确的靶向基因编辑有望塑造理想的植物结构。
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